In the next few days, Mo Li's team and Jiangcheng University of Technology's School of Life Sciences began to design experimental plans and ideas.

In fact, most of them are led by Mo Li's team, while most of the teachers and students of the School of Life Sciences of Jiangcheng University of Technology are helping.

The main reason is that Origin Group masters the most advanced technology of microbials, and the Jiangcheng Polytechnic team is still a long way from the requirements of the experiment.

But that doesn't matter.

The most important purpose of school-enterprise cooperation is to hope that students can participate in the experiment and feel the atmosphere of this experiment.

Anyway, Zhou Xiao is also the honorary dean of the School of Life Sciences of Jiangcheng University of Technology and the vice president, so helping is certain.

After accurate measurement, the vacant land behind the Jiangcheng Science and Technology Office Building has a total of three acres, and the location is still quite large.

According to the plan, the experimental institute team hired workers to clear all the garbage from three acres of land and piled it up in the first place.

It is better to be diluted than blocked. It is impossible to let businesses in the university town and workers transporting garbage not pile up the garbage here.

Therefore, in the other party's garbage place, the school specially opened a garbage throwing place, which facilitates the business in the university town and regulates the garbage throwing place.

It took a full week to clear the venue.

Next comes construction.

The construction of laboratories and training bases mainly uses steel structure buildings.

This kind of building is easy to build, and it will also be easy to expand or change the purpose in the future.

The building structure of the garbage disposal and microbial power generation laboratory is divided into these parts after planning.

The first is the garbage dumping point.

The second is a multi-level colony treatment pool.

The third is ionizing bacterial cell.

The fourth is the sewage and waste discharge tank.

If the sewage or waste discharged in the end is definitely an inorganic substance that cannot be digested by the colony according to the design of the experimental team.

The debate over the experiment is coming.

Some laboratory staff directly proposed to throw garbage into ionizing bacteria by directly using organic matter to generate electricity.

This is indeed very simple, but the utilization rate of garbage is not high.

Although ionizing bacteria can generate electricity from kitchen waste, they cannot decompose organic matter with higher molecular weight.

The final plan was to use a multipole colony pool to decompose all organic matter and decompose the organic matter of macromolecules into small-molecules or carbon compounds.

Then these things are sent into the colony pool of the heteromorphic digestive bacteria, and the heteromorphic bacteria synthesize them into high-energy substances.

Finally, these high-energy substances are sent to the colony pool of the ionizing bacteria, so that the ionizing bacteria can generate electricity using this.

Some time ago, Mo Li's laboratory conducted research on the opposite sex digestive bacteria and made great progress.

Today's heterosexual digestive bacteria can not only directly collectively call small-molecular organic matter to macromolecular high-energy substances, but also use carbonaceous compounds in solution (mainly water-soluble carbon dioxide and carbonate ions, etc.) to synthesize high-energy organic matter.

The heterosexual digestive bacteria are currently colonies of a variety of heterosexual digestive bacteria, rather than a simple bacteria.

The reason why the opposite-sex digestive bacteria possesses this new ability is mainly due to the gene of the Celliformis, which can absorb carbon dioxide in the blood and air, and use photosynthesis to synthesize sugar substances.

Zhou Xiao said: "Then our current test sequence should be as follows: macromolecular organic matter - small molecule organic matter and carbon compounds (after plastic products are strongly decomposed, they become carbon dioxide, water and various salts) - high-energy organic matter - generate electricity."

The student who came to participate in the experiment asked:

"Director Zhou, didn't we repeat some steps when doing this? We turned the organic matter of large molecules into small molecules, and then synthesized the organic matter of small molecules into high-energy organic matter with different-shaped digestive bacteria, and then handed over the high-energy organic matter to the ionizing bacteria to generate electricity? Why not forget the steps of synthesizing high-energy organic matter and directly use small molecules to generate electricity?"

It is a good thing for students to ask questions, proving that they have been involved in this experiment and are thinking actively.

Zhou Xiao said: "Please answer your question to Team Leader Mo Li."

Mo Li nodded and said, "You may not pay attention to the type of garbage. We should make it clear that garbage that can be used for ionizing bacteria power generation must be organic garbage. What are the more organic garbage? Kitchen waste and plastic products, including plastic bags and plastic bottles that cannot be recycled."

Mo Li explained: "The kitchen waste area can be directly dumped into the pool of ionizing bacteria and directly generate electricity. However, when our plastic waste cannot be decomposed by ionizing bacteria, it can only be decomposed into carbon-calorie compounds by strong digestion bacteria, and then synthesized organic matter by different-shaped digestive bacteria, so that they can be used by ionizing bacteria."

"The ionizing bacteria are being differentiated and cultured after the laboratory, and I hope that one day the ionizing bacteria can directly decompose plastic products, so that we can save a lot of trouble."

"We use multipole colonies. Although it is troublesome and also has energy consumption losses, the efficiency of power generation will be higher and the speed will be faster."

The students immediately understood the truth and said: "If you let people separate kitchen waste from plastic waste in the garbage dump, you will not only have a lot of work, but you will not be so clean."

"Whether garbage classification is done on the front end or on the back end is indeed a problem, but as far as the current situation in Xia Guo is concerned, the front-end garbage classification is not done well."

Students often see at school that there are several trash cans placed there in the school.

What can be recycled, non-recyclable, etc.

But when a garbage truck comes to collect garbage, no matter how you sort it or collect all the garbage together.

The microbial power generation laboratory is not a traditional garbage disposal station and does not have the ability to sort the back-end garbage.

You can't let students wear gloves and look for what can be recycled and what can't be recycled after school every day in a pile of garbage.

Zhou Xiao added: "The original design of ionizing bacteria was just for use on mobile phones. Some parts of the battery compartment had organic plastic parts. If we designed ionizing bacteria as strong decomposition capabilities, the mobile phone would have been melted long ago."

Now the students know that ionizing bacteria have this allusion.
Chapter completed!